A microphone apparatus of the present invention is applied to a camera including a panel type view finder for displaying a picture taken by the camera, a touch panel for pointing a desired position of the picture displayed on the view finder, determining circuit for determining a direction of the real picture in accordance with the position pointed by the touch panel, a microphone device having a plurality of microphone units for collecting a sound that comes from the picture taken by the camera; and directivity generating circuit for generating a sound directivity signal with which the microphone device collects the sound coming from the direction determined by the determining circuit.
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7. A video camera, comprising:
image taking unit having a body containing at least an image pickup device, a lens provided on a first surface of the body and an eyepiece view finder provided on a second surface of the body opposite the first surface, the image taking unit having an optical axis;
panel type view finder display unit, rotatably attached to a side surface of the body of the image taking unit adjacent the lens, which displays a picture taken by said image taking unit, wherein the panel type view finder display unit is rotatable about both an x axis and a Y axis; and
sound collecting unit having a first microphone unit disposed on a rear surface of said panel type view finder display unit, a second microphone unit disposed on the first surface of the body and a third microphone unit disposed on an upper surface of the body, wherein;
said panel type view finder, with said first microphone unit of said sound collecting unit disposed thereon, rotate together about an axis perpendicular to the optical axis.
14. A method of operating a microphone apparatus, comprising the steps of:
providing a displaying unit, rotatably attached to a side surface of a body of image taking unit adjacent to a lens, the image taking unit having the body containing at least an image pickup device:
determining a rotation angle of the displaying unit about an axis perpendicular to an optical axis;
displaying a picture taken by said image taking unit;
providing a sound collecting unit having a first microphone unit disposed on a rear surface of said displaying unit, a second microphone unit disposed on the first surface of the body and a third microphone unit disposed on an upper surface of the body and having a sound directivity which is variable; and
providing a sound directivity generating unit changing the sound directivity with which said sound collecting unit collects the sound;
wherein said displaying unit, with said first microphone unit of sound collecting unit disposed thereon, rotates together; and
said sound directivity generating unit changes the sound directivity of the sound collecting means based upon the determined rotation angle of said displaying unit.
8. A microphone apparatus, comprising:
displaying unit, rotatably attached to a side surface of a body of an image taking unit adjacent to a lens, the image taking unit having the body containing at least an image pickup device, the displaying unit displaying a picture taken by said image taking unit;
rotation determining unit determining a rotating angle of the displaying unit about an axis perpendicular to an optical axis,
sound collecting unit having a first microphone unit disposed on a rear surface of said displaying unit and having a sound directivity which is variable, a second microphone unit disposed on the first surface of the body and a third microphone unit disposed on an upper surface of the body; and
sound directivity generating unit changing the sound directivity with which said sound collecting unit collects the sound;
wherein said displaying unit, with said first microphone unit of said sound collecting unit disposed thereon, rotates together, and
said sound directivity generating unit changes the sound directivity of the sound collecting means based upon the rotating angle of said displaying unit determined by the rotation determining unit.
1. A video camera, comprising:
image taking means having a body containing at least an image pickup device, a lens provided on a first surface of the body and an eye piece view finder provided on a second surface of the body opposite to the first surface, the image taking means having an optical axis;
panel type view finder, attached to a side surface of the body of the image taking means adjacent to the lens, for displaying a picture taken by said image taking means, said panel type view finder rotatable about both an x axis direction and a Y axis direction which are perpendicular to the optical axis;
sound collecting means having a first microphone unit disposed on a rear surface side of said panel type view finder, a second microphone unit disposed on the first surface of the body and a third microphone unit disposed on an upper surface of the body, said sound collecting means having a sound directivity which is variable; and
sound directivity generating means for changing the sound directivity with which said sound collecting means collects the sound, wherein;
said panel type view finder, with said first microphone unit of said sound collecting means disposed thereon, rotate together, and
said sound directivity generating means change the sound directivity of said sound collecting means based upon a rotation angle about the axis perpendicular to the optical axis of said panel type view finder.
2. The video camera as set forth in
wherein; said sound collecting means has variably delay means for delaying outputs of a plurality of microphone units; and
calculating means for adding outputs of said variably delay means, and wherein;
an output of said calculating means causes the delay amount delayed by said variably delay means to vary in accordance with position information obtained from said detecting means in a rotatable range of said panel type view finder so as to vary a sound collecting characteristic.
3. The video camera as set forth in
said sound collecting means has a stereo characteristic.
4. The video camera as set forth in
said sound collecting means has variably delay means for delaying outputs of a plurality of microphone units; and
calculating means for adding outputs of said variably delay means, and wherein;
an output of said calculating means causes the delay amount delayed by said variably delay means to vary in accordance with position information obtained from said detecting means in a rotatable range of said panel view finder so as to vary a sound collecting characteristic.
5. The video camera as set forth in
6. The video camera as set forth in
9. The microphone apparatus as set forth in
said directivity generating unit has variably delay unit delaying an output of the microphone unit of said sound collecting unit; and
calculating unit adding outputs of said variably delay unit, and wherein;
delay amounts of said variably delay unit are varied, and a level of the output of said calculating unit is maximized in a predetermined direction.
10. The microphone apparatus as set forth in
level controlling unit controlling the level of the sound directivity signal extracted by said directivity generating unit so as to control the sound directivity signal to be a predetermined level and output the controlled sound and directivity signal.
11. The microphone apparatus as set forth in
the image taking means further having an image taking optical system including a zoom lens;
a point on the displaying unit changes by an angle of view based on a zoom position of the zoom lens;
pointing unit detecting a position of the object on a display screen when a user touches the picture displayed on the displaying unit; and
determining unit determining an angular direction of the object in the picture on the displaying unit in accordance with (a) the position detected by said pointing unit and (b) the zoom position of the zoom lens; and
said directivity generating unit changing the directivity with which said sound collecting unit collects the sound based upon the angular direction determined by said determining unit, wherein a direction of the object, that the user indicates, is compensated based upon the zoom position of the zoom lens.
12. The microphone apparatus as set forth in
said pointing unit is composed of a light transmitting member, and
said pointing unit is disposed on a display surface of said displaying unit.
13. The microphone apparatus as set forth in
said determining unit is configured to determine the direction of the object in accordance with information of angle of view obtained by said image taking unit and a command position obtained by said pointing unit.
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This application claims priority from Japanese Priority Document No. 2003-359769, filed on Oct. 20, 2003 with the Japanese Patent Office, which document is hereby incorporated by reference.
1. Field of the Invention
The present invention relates to a microphone apparatus, a reproducing apparatus, and an image taking apparatus.
2. Description of the Related Art
Most of portable video/audio recording and reproducing apparatuses such as video cameras and digital cameras put on a market in recent years have a panel type view finder with which an imaged picture or an imaging picture is monitored. The panel type view finder has a higher visibility than a conventional built-in finder (namely, a view finder through which the user observes an object with an ocular) because the panel type view finder allows the user to easily observe the picture even if he or she is not so close to the panel type view finder.
Some video/audio recording and reproducing apparatuses use the panel type view finder in common with an input device with which the user can input various operation keys. In particular, when the user touches the display screen of the panel with user's finger or a pen, the user can select a picture, an icon, or the like that appears on the display so as to input desirable information. This type of panel is generally called, for example, as a touch panel.
In particular, when the user directly points a portion of a picture displayed on the panel, a focusing and an exposure of an object to be imaged can be selectively and optimally performed or an object to be reproduced can be enlarged with the pointed object as its center. As a result, the user can optimally image or reproduce a desired object. This technology is disclosed in a published patent application that the applicant of the present patent application has filed, and that is referred to as Patent Document 1 listed below.
In recent years, while video cameras have become small, the number of functions is increased and advanced. That is, in addition to a lens, a finder, a battery, a recording medium slot, a remote controller light receiving portion, and so forth, these video cameras have many operation keys, input and output terminals, and so forth disposed throughout the entire outside of the video cameras. Of course, a built-in microphone is included therein.
In addition, most current video cameras have a rotatable panel type view finder. It has a higher visibility than the conventional built-in finder (namely, a view finder through which the user observes an object with the ocular) because the rotatable panel type view finder allows the user to easily observe the object at a position apart from the rotatable panel type view finder. In addition, since the rotatable panel type view finder allows the user to vary the panel angle in accordance with the image-taking angle of the object, the rotatable panel type view finder has been widely accepted because of the forgoing merit.
Another prior published patent application such as Patent Document 2 listed below filed by another company discloses a technology in which a microphone unit is disposed at a large screen display unit of an image taking apparatus. This prior patent application relates to an open/close type panel view finder. In addition, as disclosed in an embodiment of the prior art patent application, a microphone is disposed at a top end (or a lower end) of the open/close type panel view finder. The microphone is mechanically compensated against the open/close operations thereof. In contrast, according to the present patent application, a microphone is disposed on a rear surface of an open/close and rotatable type panel view finder. In addition, according to the present invention, a directivity of the microphone is electrically compensated relative to a rotation of the panel view finder.
A technology that selectively optimizes a sound or a voice issued from an object of the picture, and images and reproduces the picture together with the optimized sound or voice has been desired, but such technology has not been developed yet.
Therefore, the present invention proposes a new function by combining the forgoing pointing device and a microphone device. Thus, since a directivity of the microphone is directed toward the position of the picture that the user has pointed and the audio level of a relevant circuit is optimized, the object can be imaged and reproduced with the optimized sound and voice.
In addition, although the built-in microphone of the video camera is disposed at a position, where surrounding portion of the position is smooth, where the user cannot easily touch the microphone while user is imaging an object, and where the position is not acoustically shadowed. It becomes difficult to find a space for the microphone on the video camera, because the video camera is getting smaller.
In addition, when the microphone is disposed on the upper surface of the video camera, the forward voice sensitivity decreases. In this case, more unnecessary voice is adversely recorded than the voice from the target object. On the other hand, when the microphone is disposed on the front surface of the video camera, the un-smoothness of the front surface having a lens barrel and so forth acoustically shadow the microphone, and this may disturb the acoustic characteristic thereof. When the microphone protrudes from the body of the video camera, the tradeoff for a good acoustic characteristic is a large size and a low portability of the video camera.
Therefore, an aspect of the present invention was made from the foregoing point of view. An aspect of the present invention is to solve the foregoing problems with a built-in microphone disposed on a rear surface of a rotatable panel type view finder.
To solve the foregoing problem and accomplish the foregoing purpose, the present invention is a microphone apparatus comprising image taking means having at least an image pickup device and a image-taking optical system, displaying means for displaying a picture taken by said image taking means, pointing means for pointing a desired position of the picture displayed on the displaying means, determining means for determining a direction of the real picture in accordance with the position pointed by said pointing means, sound collecting means having a plurality of microphone units for collecting a sound that comes from the picture taken by said image taking means, and directivity generating means for generating a sound directivity signal with which said sound collecting means collects the sound coming from the direction determined by said determining means.
In addition, the present invention is a reproducing apparatus, comprising sound reproducing means for reproducing a plurality of audio signals that is collected by a plurality of microphone units of sound collecting means and is recorded to audio recording means, displaying means for reproducing and displaying a picture that is taken by image taking means and recorded by picture recording means, pointing means for pointing a desired position of the picture displayed by said displaying means, determining means for determining a direction of the imaged picture in accordance with the position pointed by said pointing means, and directivity generating means for generating a sound directivity signal of the sound reproduced by said sound reproducing means in the direction determined by said determining means.
Conventionally, a focusing control and an exposure control of an input picture are performed, and a desired reproduced picture is extracted/enlarged by operating a touch panel. In contrast, according to the present invention, a sound or a voice that an object corresponding to a pointed out picture generates can be extracted and the level of the extracted sound or voice can be optimized when the picture is taken and also reproduced.
In addition, the present invention is an image taking apparatus, comprising image taking means having at least an image pickup device and an image-taking optical system, displaying means for displaying a picture taken by said image taking means, and sound collecting means having a microphone unit disposed on a rear surface side of a picture display surface of said displaying means, wherein said displaying means is rotatable along with said sound collecting means.
Thus, since a built-in microphone is disposed on the rear surface of a standard rotatable liquid crystal panel type view finder of a recent standard video camera, many microphone units can be disposed without restriction as to arrangement thereof. In addition, the sound characteristic of the microphone can be improved. Moreover, the influence of the mechanical noise against the microphone can be suppressed. Furthermore, the variation of directivity of the microphone due to the rotation of the panel can be electrically compensated.
According to a first aspect of the present invention, when the user takes a picture in a noisy environment, for example, where many people are simultaneously talking, by pointing the picture the user is imaging, a sound or a voice that a desired object generates can be extracted and outputted. In addition, the user does not need to always take at the center of the picture an object whose voice the user wants to extract. For example, there could be many opportunities at which the user takes a picture of people who stand in line, and then the voice of only a desired person at one end can be extracted.
According to a second aspect of the present invention, since the user can point to an object on the panel as if the user selects a picture, a user interface that is easy to use and that has high operability can be accomplished.
According to a third aspect of the present invention, the position of a real object can be accurately calculated with an imaged picture in accordance with information about angle of view of a lens. In addition, the position of the real object can be calculated at any zoom position of a zoom lens.
According to a forth aspect of the present invention, as one type of directivity varying means, a delay adding system that adds delays of outputs of an array microphone is used. However, the directivity varying means is not limited to the delay adding system.
According to a fifth aspect of the present invention, when the output level of a sound or a voice extracted from a desired object is lower than the average output level of the surrounding sound, the output level of the sound or the voice extracted from the desired object is increased. In contrast, when the output level of the sound or the voice extracted from the desired object is higher than the average output level of the surrounding sound, the output level of the sound or the voice extracted from the desired object is decreased. As a result, the output level of the sound or voice extracted from the desired object can be optimized. Thus, the user can always clearly hear the extracted sound or voice. In addition, even if the user frequently points different positions on the panel, the sound level can be prevented from varying.
According to a sixth aspect of the present invention, since a sound or a voice of a desired object can be freely extracted from a reproduced picture that has been recorded, the user can repeatedly check the sound or voice of the desired object without restriction for the image-taken picture.
According to further aspects of the present invention, the user can obtain the same effect from a reproduced picture as that from an image-taken picture. While the user can point a picture to be focused and optimally exposed as described in Patent Document 1, the user can extract a voice according to the present invention. Thus, both a sound of a picture and an image of an object can be optimized. In addition, a picture can be effectively directed.
According to a further another aspect of the present invention, since a microphone is disposed on the rear surface of a relatively large rotatable panel of a small video camera, a plurality of microphones can be easily disposed without restriction as to arrangement thereof. In addition, an excellent sound characteristic of the microphone can be obtained. Moreover, as the panel is able to turn, the microphones can be directed to the target object. As a result, the microphone can be apart from noise of the body of the video camera. Furthermore, the directivity of an array microphone requiring many microphone units can be varied. In addition, a microphone having super directivity can be easily structured.
According to a still further aspect of the present invention, in addition to a monaural characteristic, a plurality of outputs such as a stereo characteristic can be easily obtained.
According to still further aspects of the present invention, since the directional characteristic of an array microphone is electrically varied in accordance with the rotation angle of a rotatable panel view finder, a microphone whose directional characteristic does not vary with the rotation of the panel can be structured. Since the rear surface of the rotatable panel is flat, an effect of a boundary microphone can be obtained. The meanings of the boundary effect are described as follows. That is, when a microphone is directly placed on a flat surface of a desk, a floor, or the like, since the difference between the propagating distance of a direct sound and the propagating distance of a reflected sound from the surface on which the microphone unit is disposed is small, their distortion due to interference is small and the frequency characteristic does not deteriorate. Thus, the characteristic of the microphone improves. This effect is referred to as the boundary effect.
Next, with reference to the accompanying drawings, an embodiment of the present invention will be described. As shown in
In recent years, the panel type view finder 124 may have provided with a touch panel with which a user can select a picture and an icon to input desired information by touching the display screen with user's finger or a pen. The touch panel of the video camera 121 is a kind of a pointing device with which the user can select an object of a picture. As disclosed in Patent Document 1, when the user points at a portion of a picture that appears on the touch panel, a focus control and an exposure control of the pointed picture are optimally performed. In addition, when the user points a picture that is reproduced, it can be enlarged with the pointed picture at its center. As a result, the user can optimally image or reproduce a desired picture of the object.
To correlate the pointing device with the microphone, their constituent technologies according to the present invention will be described. The touch panel is a device that detects the position that the user points to on the touch panel, converts the detected position into a voltage value or the like, and outputs the converted voltage value. The position is detected by, for example, an electrically resistive film (written as “resistive film” hereinafter for simplicity).
A resistive type touch panel 11 has two transparent resistive films 1 and 2 that are oppositely disposed and that have parallel electrodes formed on their both sides. A selection switch SW 3 causes a power supply voltage of a power source 4 to be alternately applied to the parallel electrodes. The two sets of the parallel electrodes are perpendicularly disposed. Thus, the resistive films 1 and 2 each have potential distributions in the X and Y directions. When the selection switch SW 3 causes the power supply voltage of the power source 4 to be applied to the upper resistive film 1(Y), there is an input point at a point P. When the two resistive films 1 and 2 are contacted, the potential at the point P of the upper resistive film Y is read from an output Vy through the lower resistive film 2(X).
Instantaneously, the selection switch SW 3 causes a voltage to be applied to the lower resistive film 2(X). A potential at a P point of the lower resistive film 2(X), namely the potential in the X direction, is read from an output Vx through the upper resistive film 1(Y). Thus, when the switching period of time of the selection switch SW 3 is sufficiently shorter than the contact time of period of the input point, the input position is detected with the X and Y potentials at the point P.
The touch panel 11 having the foregoing structure is disposed on the display screen of the panel type view finder 124 of the video camera 121 or the like shown in
Next, with reference to
Next, with reference to
Assuming that a sine wave having an amplitude A is inputted from a sound source A 41 that has an equidistance to each microphone, all the outputs of the microphones are A sin ωt. The outputs of the microphones are delayed by the delay circuits 44-1 to 44-3 and then added by the adding circuit 45. Thus, the adding circuit 45 adds the inputs with a delay difference of T each. When two sine waves having a delay difference of T are added, the result is given by Formula 1. In the Formula 1, for simplicity, it is assumed that A=1.
sin ωt+sin ω(t−T)=2 cos(πfT)·sin(ωt−πfT) [Formula 1]
An example of a frequency characteristic of which the absolute value of the amplitude term 2 cos(πfT) of the Formula 1 is plotted on the vertical axis and the frequency f plotted on the horizontal axis is normalized with a delay difference of T is denoted by a solid line 61 in
A microphone 53-1 outputs A sin ωt. A delay circuit 54-1 delays A sin ωt by 3T. A sound wave that reaches a microphone 53-2 has a delay of T against the sound A sin ωt that reaches the microphone 53-1. Thus, the microphone 53-2 outputs A sin ω(t−T). A delay circuit delays A sin ω(t−T) by 2T.
Likewise, since a sound wave arrives at a microphone 53-3 with a delay of 2T against the sound wave that arrives at the microphone 53-1, the microphone 53-3 outputs A sin ω(t−2T). A delay circuit 54-3 delays A sin ω(t−2T) by T. Thus, since a sound wave arrives at a microphone 53-4 with a delay of 3T against the sound wave that arrives at the microphone 53-1, the microphone 53-4 outputs A sin ω(t−3T). When two sine waves are added in the same phase, the amplitude thereof becomes double throughout the audio frequency band as denoted by a dotted line 62. Thus, since the adding circuit 55 adds these outputs 56 in the same phase, the resultant amplitude becomes four times as large as A.
The array microphones shown in
With the array microphones that have the foregoing structures, a variable directivity 34 of the microphone array 31 can be changed as denoted by a dotted line shown in
A zoom position signal 77 that is outputted from the zoom lens 70 and a plurality of microphone signals that are input from the array microphone 76 are inputted to the microphone directivity varying process unit 75. A signal processed in the microphone directivity varying process unit 75 is optimized by an AGC (Automatic Gain Control) 79 in a predetermined signal level and outputted as an audio signal 80.
In
Stereo angle adding means 94 adds a new directional angle to the directional angle that is obtained from directional angle calculating means 83 that is the same as that shown in
Thus, in
In the foregoing embodiment, it is assumed that only one array microphone is disposed. Since a human being has a pair of ears on the left and right of its face, the horizontally directional sensitivity is greater than the vertically directional, sensitivity. Normally, the change of the directional angle of the array microphone is effective in only the horizontal direction. In this case, the touch panel shown in
Thus, in
Next, with reference to
Next, in a third example of the pointing microphone apparatus, shown in
Thus, when audio signals of an array microphone and zoom position information are pre-recorded and they are reproduced by the reproducing apparatus 130, the same function as the image-taking operation can be accomplished. A panel driving process unit 134 generates a video signal and a synchronous signal necessary for a touch panel type view finder 135. The video signal and the synchronous signal are supplied to the touch panel type view finder 135. The touch panel type view finder 135 outputs a pointing position signal 138. The pointing position signal 138 is inputted to a microphone directivity varying process unit 136 having the same structure as the forgoing examples.
The zoom position signal 137 that is outputted from the reproducing apparatus 130 and the plurality of audio signals 132 that are output from the reproducing apparatus 130 are inputted to the microphone directivity varying process unit 136. The processed desired directional signal is optimized to a desired signal level by an AGC (Automatic Gain Control) 139. The optimized signal is output as an audio signal 140. Thus, the present invention can be applied to the case that a picture is reproduced.
In addition, according to the embodiment of the present invention, an audio signal extracted at any directional angle is outputted through the AGC. When the level of an audio signal to be extracted is lower than the level of the surrounding environmental sound and voice, after the desired audio signal is extracted, the AGC allows the level of the desired audio signal to be increased. As a result, the effect of which a desired audio is extracted can be further improved. In addition, since the level difference that varies depending on the pointing position is absorbed, the user can easily hear the desired audio.
Next, an example of the arrangement of the array microphone will be described. Most conventional home-use video cameras have a rotatable panel type view finder (hereinafter referred to as rotatable panel). The conventional video cameras may not have a conventional eyepiece type view finder. The rotatable panel is composed of a liquid crystal display (LCD), a backlight, and so forth. The screen size of the most of video cameras is in the range from 2.5 to 3.5 inches for high visibility. The rear surface (rear side of the display) of the rotatable panel is flat and has a sufficient space for a built-in microphone.
Thus, according to the present invention, since a built-in microphone is disposed on the rear surface of the rotatable panel, the following merits can be obtained.
First, the microphone can be directed in the forward direction of the video camera (object side). Thus, the directivity of the microphone is high. Second, when the rotatable panel is opened, since the microphone is apart from the video camera, the sound characteristic is improved. In addition, the mechanical noise of the body from the video camera can be suppressed. Third, when the rotatable panel is rotated, the directivity of the microphone can be easily changed. Fourth, since the area for the microphone is larger than that of the conventional video camera, the directivity of the array microphone having a plurality of microphones can be changed. In addition, a microphone having super directivity can be easily accomplished. Fifth, a new function having a microphone disposed at the standard position and a microphone disposed on the rotatable panel can be accomplished.
With reference to
When the microphone is disposed at the microphone position B 146, the lens 143 disposed above the microphone acoustically shadows the microphone. Thus, the lens adversely affects the sound field. In contrast, according to the present invention, since the microphone is disposed on the rear surface of a rotatable panel 144, namely a microphone position C 147, these problems can be solved. In addition, the foregoing merits can be obtained.
The rotatable panel 144 shown in
One or more microphones may be disposed at the microphone position C 147. As an example of the directivity of one microphone disposed at the microphone position C 147, an example of a normal directivity is shown in
When the rotatable panel 144 shown in
Next, an array microphone system that accomplishes the sufficient separation characteristic will be described. The first theoretical diagram shown in
In other words, B in
A second theoretical diagram of the array microphone shown in
The array microphones shown in
A first example of a variably directional microphone using the theory of the array microphone is shown in
In the delaying process, the rotation angle of the rotatable panel of the video camera is detected by rotation X or rotation Y detecting means 235. The delay periods of time are varied so that the directivity is maximized at the directional angle calculated by directional angle calculating means 234. Outputs of the variably delay means 231 are added by an adding circuit 232. As an audio signal output 233, regardless of the rotation of the rotatable panel, a sound or a voice from a designated direction, for example the forward direction, is outputted.
Rotation X or rotation Y angle that is output from rotation angle detecting means 239 that is the same as the rotation angle detecting means shown in
Thus, the variably directional microphone shown in
In the foregoing embodiment, the case of one array microphone is described. However, the user usually takes an object in the state that the rotatable panel type view finder is fully opened in the rotation range from the close position to the fully open position. Thus, when the user images an object, the rotation X direction matches the forward direction. In this case, the rotation angle detecting means 239 may be configured, so that it can detect only the rotation Y direction.
However, it is possible to compensate both the rotation X direction and the rotation Y direction at the same time. In this case, according to the embodiment of the present invention, in a third example of a variably directional microphone shown in
Rotation angles that are output from rotation X detecting means 228 and rotation Y detecting means 229 are inputted to horizontally directional angle calculating means 226 and vertically directional angle calculating means 227, respectively. The horizontally variably delay means 222 and the vertically variably delay means 223 vary delay periods of time, so that the directivity is maximized at the calculated horizontally/vertically directional angles. The adding circuit 244 adds all inputs. Thus, as an audio signal output 225, regardless of the rotation of the rotatable panel type view finder in the X direction and Y direction, a sound or a voice from the designated direction, for example, the forward direction is always outputted.
As described above, according to the present invention, the structure using many microphone units as an array microphone can be easily accomplished in a small video camera. Thus, the directivity of the microphone can be varied. In addition, a microphone having super directivity can be easily accomplished. As a result, the foregoing fourth merit can be satisfied.
The microphone position C 147 may be added so that the demerit of the conventional microphone position A 145 or B 146 can be compensated.
For example, a conventional stereo characteristic (
Next, with reference to
A directional angle/delay conversion calculating portion 253-5 independently designates delay amounts of the variably delay devices 253-1 to 253-4. The directional angle/delay conversion calculating unit 253-5 calculates optimum delay amounts in accordance with the directional angle signal 254 calculated with the zoom position signal 77 and the pointing position signal 78.
Next, with reference to
When a sound enters at a directional angle θ as shown in
T1=(d·sin θ)/c,
T2=(d·sin θ)/2c,
T3=(d·sin θ)/3c,
T4=0, [Formula 2]
where d represents the distance between adjacent microphones, and c represents the speed of sound.
Likewise, when a sound enters at a directional angle −θ as shown in
T1=0,
T2=(d·sin θ)/3c,
T3=(d·sin θ)/2c,
T4=(d·sin θ/c, [Formula 3]
As an example, at room temperature, assuming that the distance between adjacent microphones is 10 mm, the delay amounts T1 to T4 against the representative directional angle θ are obtained from a directional angle/delay conversion table 281 shown in
When a directional angle θ 282 varies from 90 degrees to −90 degrees on the directional angle/delay conversion table 281 shown in
Thus, with the foregoing delay amounts, the array microphone according to the present invention can obtain an output with directivity at any directional angle θ that the user points. In the foregoing embodiment, the number of microphones, the distance between adjacent microphones, and the arrangement of the microphones are just an example. Although the microphones may be structured in other than the foregoing example, when optimum delay amounts are designated by the variably delay means, the same effect as the foregoing embodiment can be obtained.
When two identical array microphones are disposed in the horizontal direction and the vertical direction, an output with directivity can be generated at a directional angle in the direction of the vector sum of both the microphones.
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